What is InfoWater Pro?
Engineers use InfoWater Pro software to model water distribution systems in an easy-to-use GIS interface.
- Leverage spatial analysis tools available in ArcGIS Pro to help with model building and management
- Run countless scenarios to simulate a wide range of simulations
- Present results clearly that you can share in ArcGIS Online
Watch InfoWater Pro overview (video: 1:51 min.)
Benefits of InfoWater Pro
Easily map and analyse water systems
Map, design, and analyze water distribution systems from within ArcGIS Pro.
Maintain service levels
Ensure adequate pressure to serve customers even during fireflow events..
Be prepared to respond to emergencies
Find out how a pipe break, a fire, contamination or an outage would impact customers.
What you can do with InfoWater Pro
Seamless GIS data migration to InfoWater Pro
Make the most of your hard-earned GIS data to efficiently build and update your water distribution models, with a 1:1 relationship between InfoWater Pro models and ArcGIS Pro.
Take advantage of non-native modeling data
Use a customer layer to find out who will be affected by an incident and improve model calibration with more accurate demand allocation using meter data.
Share modelling information easily
The close integration of InfoWater Pro with ArcGIS Online and new Web Services makes it easy to share data within and outside your organisation.
Key features of InfoWater Pro
Discover key functionalities of InfoWater Pro that help hydraulic modelers to effectively plan, design, and operate water distribution systems.
Model within ArcGIS Pro
Use geospatial tools to efficiently build and edit models, present results, and generate maps
Be more confident in your model by connecting external telemetry data for continuous verification
Create, analyse, and compare what-if scenarios to understand the impact of model modifications
Pressure zone schematic
Quickly view the entire model in a schematic view and get a performance summary of each zone
Water models can provide more realistic results during outage simulations
Fire flow analysis
Easily confirm fire flow capacity by evaluating and improving the readiness of the water supply to fight fires
Track old water
Model water age to control odors and find the percentage of water originating from a specified location
Prioritize expenditure for maintaining the serviceability of key assets by ranking critical valves
Fix water quality issues
Analyze the movement and concentration of a single constituent or multiple interacting chemical species
Unidirectional flushing (UDF)
Understand the hydraulics when flushing the system, to locate pipes to be flushed and valves to be closed
Better network visualisation
3D visualisation allows for new ways to view model data and understand results